Related Stories

Galactic gas US scientists have found two interstellar clouds of original gas, which contain only original elements created moments after the universe's birth.

Unlike everything else in the universe — the gas clouds have never mingled with elements forged later in stars.

The existence of pristine gas that formed minutes after the Big Bang explosion some 13.7 billion years ago, had been predicted, but never before observed.

The clouds, which are located about 12 billion light-years from Earth within the constellations Ursa Major and Leo, were found serendipitously during an ongoing study to characterise gas in distant galaxies.

In analysing the light coming from quasars (active nuclei of distant galaxies), astronomers realised the rays had passed through gas that contained only hydrogen and deuterium, elements that formed minutes after the Big Bang.

The surprise was that the clouds contained nothing else — no carbon, no nitrogen, no silicon, no iron — none of the heavier elements forged in stars and spread throughout the universe.

"In some respect we were searching for this, but we had been doing so for years and had been unsuccessful so the discovery was a very welcome surprise," says astronomer and study co-author Jason Prochaska, from the University of California's Lick Observatory.

Pristine picture

One of the foundations of the Big Bang theory is that only the lightest elements — hydrogen, helium, lithium and the hydrogen variant deuterium — formed minutes after the universe's creation, but no such pristine samples had ever been found.

"These two clouds are the first examples to fit precisely in that picture," says Prochaska.

All other elements were made inside of stars millions and billions of years later.

The hunt for other pockets of primordial gas is under way. Scientists believe the clouds may have played in role in funnelling cold gas to growing early galaxies.

"One of our biggest questions in cosmology is how galaxies get the gas they need to form stars, and how they also sent out the remnants of stars into their surroundings," says physicist and study co-author John O'Meara, from Saint Michael's College in Vermont.

"These clouds offer important insights into how galaxies get and return gas into their environments," he says.

Glaciers on the surface of Pluto could explain the mysterious frozen world's youthful skin. Also: most Earth-like planet ever found orbiting a Sun-like star, and more support for the Standard Model of particle physics.